研究了材料的组成和球磨时间对吸放氢性能的影响。
The influence of ball milling time on hydrogen storage performance was also investigated.
综述近十年来国内外有关纳米镁储氢材料吸放氢动力学的研究现状和发展趋势。
The development of Mg nano-materials for hydrogen storage in the recent decade has been reviewed in this paper.
热处理可以提高合金的吸放氢性能、改善合金相结构及合金吸放氢的热力学性能。
The results showed that heat treatment could improve the alloy's absorption-desorption property, as well as the alloy's microstructure and thermodynamic characteristics.
计算结果表明:不同颗粒直径的镁-镍-氧化物储氢材料的吸放氢反应速度差别较大;
The results show that the reaction rates of absorption and desorption are greatly different among the Mg-Ni-MnO2 hydrogen storage materials with different particle sizes;
镁基储氢材料储氢容量大,并且吸放氢过程伴随一定的热效应,从而在氢气的存储和热能存储等方面具有潜在的应用前景。
Mg-based hydrogen storage material is very promising for hydrogen storage and heat storage application because of its thermal capacity and heat effect.
镁基储氢材料储氢容量大,并且吸放氢过程伴随一定的热效应,从而在氢气的存储和热能存储等方面具有潜在的应用前景。
Mg-based hydrogen storage material is very promising for hydrogen storage and heat storage application because of its thermal capacity and heat effect.
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